Crops ›› 2017, Vol. 33 ›› Issue (3): 138-145.doi: 10.16035/j.issn.1001-7283.2017.03.025

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Revise of Light and Temperature Productive Potential Index of Rice Based on Greenhouse Seedling ——A Case Study in Fujin County

Hu Qin1,2,Wu Kening1,2,Liu Haoran1,2,Song Wen1,2,Li Chenxi1,2,Song Hengfei1,2,Gao Xing3   

  1. 1 College of Land Science and Technology,China University of Geosciences(Beijing),Beijing 100083,China
    2 Key Laboratory of Land Regulation,Ministry of Land and Resources,Beijing 100035,China
    3 College of Public Administration,Hebei University of Economic and Trade,Shijiazhuang 050061,Hebei,China;
  • Received:2017-02-17 Revised:2017-04-13 Online:2017-06-15 Published:2018-08-26
  • Contact: Kening Wu

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Abstract:

The accuracy of light and temperature productive potential index of rice has direct impact on the reality and scientific classification of agricultural land. Using step by step revised model in this paper we revised the productive potential index from sowing date, transplanting date, temperature and climate data, and also compared the changes and reasons, which could provide a scientific basis for the subsequent work for agricultural land classification. The results showed that the original seedling and transplanting dates did not fit the rice growing regulation. The following agricultural land classification work should be revised according to rice sowing date and transplanting date. The light and temperature potential productive index was increased by advancing the sowing and transplanting dates. Climate change and greenhouse seedlings of rice both make light and temperature productive potential index increased, however the greenhouse seedlings has a bigger impact on light and temperature productive potential index in Fujin.

Key words: Agricultural land classification, Light and temperature productive potential index, Greenhouse seedlings, Revised index, Rice, Fujin

Fig.1

The correction of light and temperature productive potential index of rice based on greenhouse seedling"

Table 1

The comparsion of light and temperature productive potential index of rice without greenhouse breeding"

类型
Type		 播种日期
Sowing time		 插秧日期
Transplanting time		 育秧期间平均温度(℃)
Average temperature during seedling raising		 气候数据年份(年)
Years of climate data		 光温生产潜力指数(kg/m2)
Light and temperature productive
potential index
类型一Type one 5月1日 1961-1990 1 223
类型二Type two 4月25日 5月1日 5.2 1961-1990 1 223

Table 2

The comparison of correction results of light and temperature productive potential index of rice without greenhouse breeding"

类型
Type		 播种日期
Sowing time		 插秧日期
Transplanting time		 育秧期间平均温度(℃)
Average temperature during seedling raising		 气候数据年份(年)
Years of climate data		 光温生产潜力指数(kg/m2)
Light and temperature productive
potential index
类型一Type one 5月25日 1961-1990 1 137
类型二Type two 4月25日 5月25日 5.2 1961-1990 1 223

Table 3

The comparsion of light and temperature productive potential index of rice with greenhouse seedlings"

类型
Type		 播种日期
Sowing time		 插秧日期
Transplanting
time		 育秧期间平均温度(℃)
Average temperature
during seedling raising		 气候数据年份(年)
Years of climate data		 光温生产潜力指数(kg/m2)
Light and temperature productive
potential index
类型三Type three 5月20日 1961-1990 1 154
类型四Type four 4月5日 5月20日 24.5 1961-1990 1 817

Table 4

The comparsion of climatic correction results of light and temperature potential productivity index of rice with greenhouse seedling"

类型
Type		 播种日期
Sowing time		 插秧日期
Transplanting time		 育秧期间平均温度(℃)
Average temperature duringseedling raising		 气候数据年份(年)
climate data of years		 光温生产潜力指数(kg/m2)
Light and temperature productive potential index
类型五Type five 5月20日 1991-2015 1 163
类型六Type six 4月5日 5月20日 24.5 1991-2015 1 836

Fig.2

The climate data of monthly average temperature in comparison"

Fig.3

The climate data of monthly average sunshine percentage in comparison"

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